Molecular diversity and stability analysis for seed yield and its components in cluster bean [Cyamopsis tetragonoloba (L.) Taub.]
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Date
2022-12
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CCSHAU, Hisar
Abstract
Molecular diversity analysis was carried out to identify adaptable and stable genotypes of cluster bean for non-conventional season. A set of 25 cluster bean genotypes comprising released varieties and elite lines was evaluated under eight environments containing two locations Dry land research area Hisar and RRS Bawal. The experiment was conducted during summer and kharif seasons of years 2019 and 2020 in RBD with three replications. The sowing of summer crop was done during first week of March and kharif crop was sown between second fortnights of June to first week of July. In general, genotypes responded differently for various traits under different production systems. Morphological characterization of the genotypes was done based on eight qualitative characters. HG 6 was found shortest, early flowering and early maturing genotype. Seed yield per plot, number of cluster per plant and biological yield of HG 2-20 was found highest. Highest gum content was found in HG 3-52 while, HG75 was found least susceptible against bacterial leaf blight intensity. Clusters per plant, pods on main stem, pod length, branches per plant, biomass per plot, plant height, 100 seed weight and days to maturity towards seed yield while, ADF content, silica content and protein content towards BLB disease intensity were found to be important characters for cluster bean improvement.
The G X E interaction was analyzed following two models i) Eberhart and Russell‘s (1966) and ii) AMMI (1997). The mean sum of squares due to genotype x environment interaction were significant for number of pods per plant, number of pods per cluster, pod length, number of branches per plant, harvest index, total clusters, protein content and seed yield per plot. Genotypes, RGC 1066 for seed yield per plot whereas, for gum content, HG 2-20, HG 870, HG 563, HG 365, HG 3-52, HG 6, HG 100, X-10, GG-1, RGC 1066, RGC 1033 were found suitable for all environments. Similarly, for low BLB intensity 17 genotypes were found suitable for all environments. According to AMMI biplot analysis, HG 100, RGC 1038, RGC 1066 and HG 870 for seed yield per plot; HG 870, HG 365, HG 100, X-10, GG-1, RGC 1066 and RGC 1033 for gum content and HG 870, HG 563, X-10, RGC 1055, RGC 1002 and RGS 3 were found stable with low BLB intensity were found suitable for general adaptation to all the environments. Markers used in the present investigation were moderately informative. Most of the important cultivated varieties were grouped into a cluster indicating important cultivars in cluster bean have a high level of genetic similarity and have a narrow genetic base.